42882-31-5Relevant articles and documents
Versatile Dynamic Covalent Assemblies for Probing π-Stacking and Chirality Induction from Homotopic Faces
Ye, Hebo,Hai, Yu,Ren, Yulong,You, Lei
supporting information, p. 3804 - 3809 (2017/03/27)
Herein we report for the first time the use of dynamic covalent reactions (DCRs) for building a π-stacking model system and further quantifying its substituent effects (SEs), which remain a topic of debate despite the rich history of stacking. A general DCR between 10-methylacridinium ion and primary amines was discovered, in which π-stacking played a stabilizing role. Facile quantification of SEs with in situ competing π-stacking systems was next achieved in the form of amine exchange exhibiting structural diversity by simply varying components. The linear correlation with σm in Hammett plots indicates the dominance of purely electrostatic SEs, and the additivity of SEs is in line with the direct interaction model. With α-chiral amines π-stacking within the adduct enabled chirality transfer from homotopic faces. The strategy of dynamic covalent assembly should be appealing to future research of probing weak interactions and manipulating chirality.
Bioinspired organocatalytic aerobic C-H oxidation of amines with an ortho -quinone catalyst
Qin, Yan,Zhang, Long,Lv, Jian,Luo, Sanzhong,Cheng, Jin-Pei
supporting information, p. 1469 - 1472 (2015/03/30)
A simple bioinspired ortho-quinone catalyst for the aerobic oxidative dehydrogenation of amines to imines is reported. Without any metal cocatalysts, the identified optimal ortho-quinone catalyst enables the oxidations of α-branched primary amines and cyclic secondary amines. Mechanistic studies have disclosed the origins of different performances of ortho-quinone vs para-quinone in biomimetic amine oxidations.
PROCESS FOR THE RACEMIZATION OF OPTICALLY ACTIVE ARYLALKYLAMINES
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Paragraph 0117, (2014/02/15)
Many optically active amines are valuable pharmaceuticals and intermediates for the preparation of active compounds. It is frequently the case that only one of the two enantiomers is active or not harmful, so that isolation of this enantiomer from the racemic mixture is necessary. Processes for racemate resolution make it possible to separate racemic mixtures into their enantiomers. Here, it is useful to once again racemize the enantiomer which is not required and recirculate it to racemate resolution and thus improve the yield of the desired enantiomer. The present invention relates to processes for the racemization of optically active amines, in particular arylalkylamines, in the presence of hydrogen and a hydrogenation/dehydrogenation catalyst comprising nickel, cobalt and copper as active components at elevated temperature.